Abstract
A standard close coupling method is applied to collision-induced dissociation in a non-reactive He+H 2 system. The dissociative continuum is approximately described with a set of discrete states which are obtained by confining the internuclear motion of H 2 in a box. The scattering is assumed to proceed in a T-shape configuration but under a realistic potential energy surface. The convergence of the resulting probability is examined with respect to the number of coupled channels and the size of the box for the discretization. Well-converged dissociation probabilities are obtained and show strong dependence on the initial vibrational state.
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